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I'm working on a project for a Turning machine but having problems conceptualizing the steps.

f(x) = x^3, where x is a single digit between 0 - 9 inclusive.

Based on my understanding I am to convert the number to binary but how do I find the cube of a number in binary.

Also, how do I write the cube on the tape.

So far I'm thinking I should create a state diagram that accepts the binary versions of 0-9 but what next?

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I'm starting to wonder about the "single digit" - could it be that this Turing machine can write the symbols 0-9 (plus blank)? That would make this a lot more doable. In binary (or, worse, unary) it's a ton of pointless busywork. –  Robert Kosara Apr 15 '10 at 12:09
    
That was my exact approach originally but when I took the design to the tutor she said the turing machine can only deal with binary. :-( –  Julian Apr 15 '10 at 20:41

1 Answer 1

I would do it like this:

  • Write a copy of the number to the left of your current number
  • Write another copy to the left of that
  • Multiply the original number with the first copy, erasing the copy
  • Multiply the result by the second copy, erasing that

You will need to write a copy and a multiply "subroutine" (using states) and jump into those by setting the right states. But I think this should be doable (if a lot of work). But probably less work than encoding all cubes from 0 to 9.

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How do I go about writing a copy? As far as I know the transition for a turing machine is usually in the form {0, 1 -> R} {where you read in a digit, replace it with something else and move on.} Can I write two digits, e.g. {0, 11 -> R}? –  Julian Apr 15 '10 at 5:00
    
No. I think you would need to read the digit, remember it in the state, find the end of the copy, and append it. –  Robert Kosara Apr 15 '10 at 12:07

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